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Where in the range 10-20 there would be twice the probability of 15 being returned than either extreme.

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What kind of weight? Linear? Exponential? – Blender Mar 31 '11 at 16:19
That sounds like an order more than a question! But what weighting function do you want? – juanchopanza Mar 31 '11 at 16:28
Done. The integer is 17. ;-) – Chris Mar 31 '11 at 16:30
up vote 7 down vote accepted

You can use random.triangular() with Python >= 2.6:

n = random.triangular(10, 20)

n will be a floating point value, so you need to convert it to int.

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+1 for not inventing a complicated function! – Blender Mar 31 '11 at 16:34
Perfect. Thank you. – Christopher O'Donnell Mar 31 '11 at 16:39
Well, to be honest I believe that this is not correct.. You will have a triangular probability function but the requirement on the probability of the median being twice the one of the extremes gives an additional constraint. You don't need a triangular PDF, but rather a "house shaped" one.. The sum of an uniform PDF in (min, max) with value x and a triangular PDF in (min, max) where P(min + (max - min) / 2) = x, with the constraint - of course - that the integral of this PDF over R is 1. – Andrea Spadaccini Mar 31 '11 at 17:04
So this is working okay, but I am having trouble using the bell-curve distribution functions in random. Say my range was (10,20) and I wanted values like 13 and 17 to be exponentially more probable than 10 and 20. These functions do not seem to accept the same (min, max) arguments, and the overall median is assumed to be the median of the (min,max) pair. Is there good documentation on this? The official docs seem sparse in information for non-mathematical people. – Christopher O'Donnell Mar 31 '11 at 21:36
The "bell curved" densities are infinite (like all PDF functions), so they don't return anything like 10 or 20. Their max is one (as you can't have a probability of two when throwing a die), so you'll need another function for that purpose. I'll re-write my answer a little (as I wasn't on a python-enabled computer when I wrote it) to fit to that model. – Blender Mar 31 '11 at 22:20

Try and see if this works (sorry if it's not very readable):

import random

def randIntWeight(min, max):
  distanceFromMedian = random.uniform(0, (max - min) / 2.0)

  return (max - min) / 2.0 + distanceFromMedian * (-1) ** (random.randrange(-1, 0))

I'm still brushing up on my Probability Theory, so please correct me if this isn't right.

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This returns floats between 0 and 5. – Christopher O'Donnell Mar 31 '11 at 16:37
This won't work, you must add min to the returned value. Also, it returns a float and the function name is not very clear. (sh*t how picky I sound -_-) – Andrea Spadaccini Mar 31 '11 at 16:42

As pointed out by Blender, you really need to be more specific. But in the simplest case you can generate a Triangular Distribution from a uniform variate.

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